Apparatus for making beverages



Y Aug. s, 1944;

E. B. MOORE APPARATUS FOR MAKING BEVERAGES Filed Sept. 21, 1940 3 Sheets-Sheet l E. B. MCORE APPARATUS FOR MAKING BEVERAGES Aug. s, 1944.

Filed Sept. 21, 1940 3 Sheets-Sheet, 2

Woon@ Aug. s, 1944. E. B. MOORE 2,355,094

APPARATUS FOR MAKI-NG BEVERAGES Filed Sept. 21, 1940 3 Sheets-Sheet 3 Patented Aug. 8, 1944 UNITED sTATEs PTENTOFFTCE 2,355,094 arPARATUs Fon MAKING BEVERAGES Emmett B. Moore, Evanston, lIll.` A

Application September 21, 1940, Serial No. 357,772

(Cl. ssi-3,02)

Claims.

This invention relates to the making of beverages such as coffee, in which the flavor is ob tained by treating solid matter, such as the ground coiiee bean, with a liquid, usually hot or boiling Water.

One object of the invention is to provide apparatus for producing a full flavored coffee from which the less desirable oils and other ingredients of the coffee bean are omitted.

Another object is to provide an apparatus capable of producing a satisfactory beverage of this character in a shorter time than has been possible by methods previously known. i

A further object is to provide a relatively simple apparatus, easy to operate and to cleanse, and not particularly expensive to manufacture.

AOther objects and advantages will appear as the description proceeds. y

Theinvention. thus consists in certain features and elements of construction in combination, and in certain steps and methods of procedure, as hereinafter describedv and illustrated in the drawings and as indicated by the claims.

In the drawings.:

Figure 1 is a substantially axial section af a coffee pot with apparatus mounted therein for mixing the solid particles of coffee and the hot liquid to produce a-beverage brew.

Figure 2 Ais ,a transverse section taken substantially as indicated at line 2 2 on Figure 1,

, at line 5 5 on Figure 2.

Figure 6 is a sideY elevation of the coiee po l.with the mixing motor'removed, and with the colee container shifted above the liquidlevel.

VFigure '7 is a side elevation' of' the coiee vpot with lallthe removable parts taken out and with a lid appliedthereto as for table service.

Figure 8 is a substantially axial section showing a modied form of impeller chamber associated with the coffee, container.

Figure 9 is a transverse section taken substan- 'tially as indicated at line 9 9 on Figure 8.

Figure 10 is a fragmentary elevation showing certain parts ofthe structure in Figure l in disassembled relation.'

Figure 11 is a side elevation of the structure of Figure 8 as adjusted -to draining position in a coffee pot.

' Figure 12 is a substantially diametralvsection of amodied construction for an impeller cham ber to be substituted for that shown in Figure 8.

In the form of the invention illustrated in Figures 1 to v5 thev coffee pot I is shown as a simple cylindrical' receptacle having a handle 2 and pouring spoutv 3, and surmcunted by a rim ange 4. The mixing apparatus is suspended within the receptacle I except for a driving motor 5 which is disposed above it, with its shaft extending in substantially axial position within the cavity ofthe receptacle I. vAt its lower end the shaft carries a rotary impeller I having blades 8 which are formed to produce a flow outwardly and downwardly therefrom. A cylinder 9, formed `with a flange IIJ which rests v.upon the rim ange 4 of the coffee pot, is thus suspended with clearance within the receptacle I, andthe bottom wall I I of this cylinder 9 is also the bottom of a chamber I2 which encloses the impeller 1. The top WallV I3 of the chamber I2 is formed with alateral iiangey I4I which nts snugly against the vbottom wall IIT' and Within a'reduced portion I5 which meets the side wall of the cylinder-'9 in an inclined or conical ,connecting portion IE serving to steer the iianged part I3 into position when the motor/is assembled with the cylinder 9. The

,motor is attached to a plate I'I having a, peripheral Iange` I8 which fits snugly within the cylinder 9 and thus steadies the motor in its position. The ange 'I8 may have lugs -Ia which engage bayonet slots 82 in the cylinder 9 (see Figure 6) to lock the motor in position. Connecting posts I9 extend between the wall I3 and the plate Il for spacing themV properly and supporting the motor just above the rim 4 of the coffee pot.

Y l`Iheupper wall I3 of the chamber I2 is formed ,with a central inlet opening 28, and at about the same llevel the cylinder 9 is providedwith inlet vapertures 2i so that liquid standing in the receptacle I in the clearance space between its wall land thecylinder @is afforded access to the imrality of small outlet apertures 23, directed laterally irom the inner side of the Vchannel 22 and additional apertures 24 directed laterally from the outer side of the channel. The impeller thus creates a pressure which discharges the liquid laterally from these openings 23 and 24 so as to fill all available space within a vessel 25 which is suspended below the wall II and within the receptacle I. This vessel is designed to contain a quantity of solid beverage-making material, such as ground or pulverized coffee, which is supported on a reticulated or perforated bottom 26 disposed above the bottom wall 21 of the receptacle I, with ample clearance for the flow of liquid which is forced through the vessel 25 by the impeller1. The lateral arrangement of the ports 23 and 24.` insures that the jets of liquid will not be discharged into the body of solid material so as to bore their way through it, but the ow induced by f the lugs 3| is secure enough so that the pot I may be tilted for pouring the coffee immediately, if desired, but, normally, after a brief period, sufficient to allow all the liquid to drain from the vessel 25, the cylinder 9 and the vessel 25 will be removed entirely from the pot I, and an ordinary lid 35 will be applied to the flange I0 (as seen in Figure 7). If desired, this lid may have lugs similar to the lugs 3| for interlocking with the recesses.

Upon releasing the bayonet lock lugs 28 from the grooves with which they inter-member in the ange I5 the vessel 25 can be readily detached for removing the coffee grounds remaining therin, and the straight, cylindrical side wall -of the vessel 25 greatly facilitates the cleansing the impeller 1 will rather tend to build up a pressure of liquid in the upper portion of the vessel 25, forcing the liquid downward through the entire mass of solid matter for discharge through the screen or perforated bottom wall 26.

In the process of preparing a beverage with this apparatus a quantity'of water is placed in the receptacle I to be heated, and a quantity-of granulated or pulverized coffee is placed in the vessel 25 which is open at the top but which includes bayonet lock lugs 28 for'external connection with the part I5, so that it may thus be suspended from the cylinder 9. Either before or after'heating the water, the cylinder 9 islowered into the receptacle l with its flange I0 resting on the rim flange 4. With the Water at the desired temperature, ordinarily approximating the boiling point,

the motor unit, including the downwardly hanged wall I3 and the impeller 1 just below it,'is lowered into the cylinder 9 so that the flange I4 fits snugly within flange I5, with the lower edge of 'the flange I4 sealingv the pump chamber which is thus formed to enclose the impeller, as shown in Figure 1. 'Ihe electric motor 5 is then operated for a short period; and usually, about one minute is sufficient to produce a satisfactory and palatable infusion of the coffee'with theivater in the receptacle I. 1

As the impeller 1 rotates, the Water, which readily fiows into the chamber'IZ by way of ports 2| and inlet 20, is circulated downwardly through the vessel 25 and its perforated lower portion, into the receptacle I, in whichit flows upwardly and backthrough apertures 2| and inlet 20, to the chamber I2 for repeated circulation in this path. Thus the same liquid is passed over and over in contact with the granular material in the vessel 25, disolving or carrying away in suspension additional quantities of this material with each re-circulation until a brewv of proper strength is produced. 1

'The motor 5 and its impeller` 1 are then removed and the cylinder 9 is elevated to the position shown in Figure 6, its laterally projecting lugs 3| being lifted through the clearance openings 32 in the rim I0 and then seated in recesses 33. These recesses may be under-cut at one side,

as indicated at 34, so that by limited rotation of '65 tachment of the cylinder 9 to the 'part by means -15 which is easily completed by flushing the screen 26 with warm water. Preferably, the screen 26 is made as a unit, with its marginal portion soldered to a flat, annular frame 3G, and this member may be removably attached' to the bottom flange 31 of the vessel 25 by means of headed studs 38 (as seen in Figure 4) projecting from the flange 31 and interlocking with arcuate slots 39 in the frame member 36. Fingernail recesses 40, or other suitable means, may be provided for engaging the frame 36 to rotate it through a limited angle for releasing the heads of the studs 38 through the enlarged vportions Vof the slots 39. With the construction shown in Figures 1 to 5 the motor and the impeller 1 can be readily separated from the cylinder 9 so that the impeller and the flanged wall I3 can be quickly cleansed by rinsingand drying. Similarly, the vessel 9 can be easily washed and dried, ready for further use.

A modified form of the structure is shown in Figures 8, 9 and 10, in which the supporting cylinder 9 is dispensed with. The members 59 connecting the top plate 5I with the top wall 52 of the impeller chamber serve to suspend this chamber and the attached vessel 53 within the coffee pot I. The marginal portion 5|*i of the plate 5I rests on the top ring 4 of the coffee pot, with a depending flange 5 Ib to position it. The marginal flange 54 of the part 52 is formed with lugs 55 which engage in bayonet slots 56 in the wall 51 of a shallow vessel which cooperates with the part 52 to form the chamber 58 enclosing the impeller 1. |As in the first described structure, the wall 52 has a central opening shown at 59 around the shaft; 6a of the impeller 1, which'serves as an inlet for liquid, and the bottom'wall 60 of the chamber 58 is formed with a channeled portion 6I having ports 62 discharging laterally and inwardly, and ports 63 discharging laterally and Voutwardly into the vessel 53. The bottom wall 64 of the vessel 53 may be of woven screen material Y or iinely perforated metal, and may be removably secured by an annular frame ring 65, as in the other construction. The vessel 53 is formed with lugs 56 near its upper edge engaging in slots 61 of the side wall 51, as seen in Figure 8, so that the vessel 53 is suspended from the chamber 58 and the Vlatter is suspended from the motor by the member 50. The vessel 53 may be formed with a flange or collar having radially extending lugs vtreated for the extraction of its flavoring elementsv by the rapid circulation of the hot water in'.` the pot I throughthe solidA material. This circulation isinduced by the rotation of the impeller 1 in the chamber 58, drawing the water in through the opening 59 and discharging it through the outlets .62 and 63, and eventually through the perforated bottom wall 64. .Following this treatment, the motor, with. the chamber 58 and vessel 53 connected thereto, is elevated to the position shown in Figure II, and the motor and impeller may be immediatelydetached from the chamber 58, thus leaving the vessel 53 suspended in the upper part of the pot I for draining. When this is completed thevessel 53, containing the dregs of the coifee, will be removed entirely from the-pot vLand the cover 35 may .be applied, as shownin Figure '7.

As indicated in Figure 10, the bayonet slots 56 may have inclined side walls 56a to provide a slight wedging action for securing` the chamber 58 rmly inposition enclosing the chamber; and this securement may be supplemented by a clamping screw 83, positionedfto impinge against the upper edge of the wall` 51, as seen in Figure 8. Upon release of the screw 83 and limited rotation of the motorl assembly, `the lugs 55 are registered with the openings 19 of slots 56 so that the motor impeller may be readily removed. Figure 10 also indicates inclined side walls 61a for the. bayonet slots 61, so that when the vessel 53 is. applied to the part 51 there will be a slight wedging action to hold the vessel firmly in place. Limited reverse rotation will release the vessel 53 from the part 51 for emptying of the coffee grounds and cleansing of the parts.

Figure 12 shows a further modification which has to do with the form of outlet openings through which the liquid from the impeller chamber is fed into the coffee-containing vessel. In this form the side wall 1I of the impeller chamber is similar to that shown in Figures 8 and l0, but the bottom wall 12, instead of having a channeled formation, is provided with a plurality of outlets 13 arranged in a circle, and with a baille ring 14 directly below the outlet 13 but spaced therefrom suiiciently to permit the liquid to escape past the inner and outer edges of the ring 14. This prevents the liquid from being forced directly into the mass of granulated or pulverized material in the vessel 53 and accomplishes substantially the same result as the laterally directed openings 23 and 24 of Figure 1, or 62 and 63 of Figure 8. As a Convenient construction the ring 14 is shown secured in spaced relation to the bottom Wall 12 by rivets 15 at two diametrically opposite points.

As a matter of convenience the motor shafts 6 and 6a are shown with knurled enlargements 6b, so that the shaft may be grasped to facilitate removal of the impeller 1, if that should be necessary; and to permit the motor to be hung up from a hook, if desired, it may be equipped with a suitable eye at the upper end, indicated at 5a.

If desired, the motor may be equipped with a timing switch of any suitable, known construction, which may be installed, as shown at 16, as a part of the handle 11 attached to the motor 5; and the current supply cable 18 may be connected into the end of this handle by a separable plug 19. In the structure of Figures 1 to 5 the cylinder 9 may be provided with a vertically extending rib or bead 80 which engages in a notch 8| in the iiange 4, to insure that as the cylinder S is lifted toward its elevated position, illustrated in Figure 6, it will be positioned With lugs 3| 75 registered with the clearance notches 32 through which theymustpass. v

With the structure, described, or With either of its modications, I have found that an unusually palatable quality of coee can be produced which seems to contain the desirable flavoring elements .of the coee bean without having absorbed those ingredients` tending to produce a .disagreeable or .unpleasant taste. I attribute this result partly to the fact that the coiee grounds are not .actually subjected? to continuously boiling water .as in some of the known. methods, and partly to the limited time required for the process. The forced circulation Vvofthe liquid repeatedly through the nely dividedparticles` of coffee enables theliquid to, pick up in solution, or suspension,ithe essential avoring ingredients in about one minute, and apparently this time is too short to permit the unwanted elements to be separated and carried away in the liquid. Although I .havefound a ne mesh screen ordinarily satisfactory as the pervious bottom 26 of the coffeecontaining vessel, it will be' understood that a nely perforated sheet metal disk may serve the purpose in some cases, or that, if desired, a filter cloth or paper may be employed to supplement either form of reticulated bottom wall, particularly if the coffee is supplied 'in finely pulverized form. I have found that either coarsely ground or iinely pulverized coffee will producea satisfactory beverage. when treated by the apparatus and method herein disclosed.

If, at any time, the motor 5 should be disabled, or electric current therefor should not be available, the pot I may be employed in conjunction with the cylinder 9 and vessel 25, shown in Figure l for making coffee by the so-called drip method. A suitable quantity of coffee will be placed in the vessel 25 and lowered into the pot I, either while the water is being heated therein or after it has come to a boil. Then the vessel 25 will be elevated to draining position, as shown in Fgurer, thus allowing the Water in the vessel to drain through the coec, carrying away in solution or suspension a portion of the lavoring material to produce a beverage liquor in the pot I. The strength of this liquor may be increased by repeating the process of lowering the coiee into the liquid and again raising it to drain position, or, if desired, the vessel 25 may even be left at its lower position while additional heat is applied to the pot II. Thus the outfit will not be entirely crippled with the motor 5 out of service. And, if desired, the pot I, together with the cylindrical part 9 and the vessel 25, may be sold separately from the motor unit with the expectation that the motor will be purchased later for completing the outt and adapting it for operation in accordance with the preferred method herein described.

While there is shown and described herein certain specific structure embodying the invention, it will be manifest to those skilled in the art that various modications and rel-arrangements of the parts may be made without departing from the spirit and scope of the invention, and that the same is not limited to the particular form herein shown and described, except in so far as indicated by the appended claims.

I claim as my invention:

1. In combination, a receptacle for liquid, a rotary impeller, a stationary housing for the impeller having an inlet opening in its top wall and a detachable bottom formed with a plurality of small outlets, means removably supporting the outlet spaced above the bottom of the receptacle.

' 2. In combination,l a receptacle for liquid, a structure supported within said receptacle in spaced relation to the walls thereof and including two chambers both positioned below the normal liquid level therein, said structure comprising a lower chamber for coiee or the like and an upper chamber communicating with the lower chamber and enclosing an impeller mounted for rotation, means driving said impeller in a direction to propel liquid downwardly and forcibly through both chambers, said upper chamber having an inlet admitting liquid from the receptacle and outlet means leading into theupper part of the'lower chamber, said lowerchamber having its lower portion of pervious formation for dis-v charge of liquid into the receptacle, said outlet means being formed in a partition which separates the upper chamber from the lower chamber and being arranged to discharge liquid laterally into the lower chamber adjacent the under side of said partition to prevent the liquid discharge from boring directly through the contents of the lower chamber.

3. In combination, a, receptacle for liquid, a structure supported within said receptacle in spaced relation to the walls thereof and including two chambers bothpositioned below the normal liquid level therein, said structure comprising a lower chamber for coffee or the like and an upper chamber communicating with the lower chamber and enclosing an impeller mounted for rotation, means driving said impeller in a direction to propel liquid downwardly and forcibly through both chambers, said upper chamber having an inlet admitting liquid from the receptacle and outlet means leading into the upper part of the lower chamber, said lower chamber having its lower portion of pervious formation. for discharge of liquid into the receptacle, said outlet means being formed in a partition which sep- `arates the upper' chamber from the lower chamber, vsaid Apartition having an upwardly open vchannel-and said means comprising small apertures in the side walls of the channel discharging laterally adjacent the under side of said partition and into the lower chamber.

4. In combination, a receptacle for liquid, a structure supported within said receptacle in spaced relation to the walls thereof and including two chambers both positioned below Vthe nor- `mal liquid level therein, said structure comprising a lowerl chamber for coffee or the like and anuppe'r chamber communicating with thelowver chamber and enclosing'an impeller mounted ltacle'andoutlet means leading into the upper part of the lower chamber, said lower chamber having Vits lower portion of pervious formation for discharge of liquid into the receptacle, said -outlet means comprising a plurality of small holes formed in a horizontal partition which separates the upper chamber from the vlower chamber together with a baille member of limited width disposed directly below the holes in spaced relation to the partition for deflecting the liquid laterally into the lower chamber.

5. In combination, ay receptacle for liquid, a container for coffee or the like supported in said receptacle below the normal liquid level therein, said container having a pervious lower portion and having inlet means for liquid in its upper portion, pumping means super-imposed upon said container operative to circulate the liquid through said inlet means and downwardly through the container, the receptacle having an inwardly extending rim notched at intervals and the container having laterally projecting lugs positioned to pass through the notches of said rim and to seat on the rim when the container is elevated and the lugs are rotated out of registration with said notches.

EMME'I'I B. MOORE. 

